KR20180080708A - Anisotropic adhesive sheet - Google Patents

Abstract

The present invention provides an adhesive sheet which firmly adheres to an adherent and can be simply peeled from the adherent when the adherent is unnecessary or a bonding thereof should be corrected. In addition, without constraints of a base material or an adhesive, provided is an anisotropic adhesive sheet having different peelabilities according to a peeling direction. The anisotropic adhesive sheet (10) comprises: a resin layer (2) having a cross section of a recess structure on at least one surface of a base material (1); and an adhesive layer (3) filling the recess structure of the resin layer (2), which are stacked in order, wherein the adhesive sheet has a pattern shape of the recess structure of the resin layer (2) and anisotropic properties, and the surface of the adhesive layer (3) has an arithmetic average surface illumination (Ra) of 5 μm or less and smoothness.

Description

ANISOTROPIC ADHESIVE SHEET [0002]

The present invention relates to an anisotropic viscous sheet which exhibits different peelability depending on the direction of peeling, can firmly adhere to a specific direction, and exhibits excellent peelability in a direction other than a specific direction.

Adhesive products such as adhesive sheets and adhesive tapes are used for many purposes. It is general that a pressure-sensitive adhesive having an appropriate adhesive strength is selected and used in accordance with the intended use. In addition, a pressure-sensitive adhesive having a high adhesive strength is used for a permanent adhesive, and a pressure-sensitive adhesive having a low adhesive strength is generally used for re-release. However, in the case of adhesive products such as wallpaper, window film (film for windowpanes), marking sheets, etc., a pressure sensitive adhesive having a high adhesive strength is required. When the adhesion position is corrected, when bubbles or foreign substances are interrupted at the time of curing, It is required to satisfy at the same time the opposite functions to easily peel off when replacing the protective film. Further, there is also a problem that the adhesive agent remains on the adherend when the adhesive tape is removed when not needed, such as a baffle, a seal, and various adhesive tapes. In addition, in the case of packaging containers such as corrugated cardboard boxes or envelopes in which a receiver's name label, a courier delivery way, etc. are adhered, conventionally, it has been common to dispose of a receiver label or the like while adhering thereto. However, it is required to simply peel off a portion in which personal information such as a person's name label is described, and to dispose of a packaging container such as a corrugated cardboard box for reasons such as preventing leakage of personal information.

On the other hand, a protective film for an optical film or a display, a protective sheet for a metal plate or a steel sheet can be used without being peeled off when used in an adherend, and can be easily peeled off (adhered) A sheet is desired. That is, there is a demand for a tacky product which can be firmly adhered to an adherend, which does not require an adherend, or which can be easily peeled off from an adherend when the adherend is modified, in applications where it is permanently adhered or reapplied.

Various proposals have conventionally been made for compatibility between adhesive property and peelability. For example, Patent Document 1 proposes that a pressure-sensitive adhesive layer containing a foaming agent is formed on a substrate as a heat-peelable pressure-sensitive adhesive sheet in which the adhesive force is decreased or lost by heat treatment. Patent Document 2 proposes a pressure-sensitive adhesive tape in which the pressure-sensitive adhesive is cured by irradiation with radiation to significantly reduce the adhesive force. However, such a pressure-sensitive adhesive sheet has a problem that the light-exfoliation function can not be used in a place where the ultraviolet light irradiation device or the heating device is not installed.

In addition, some pressure-sensitive adhesive sheets having different adhesive strengths depending on the direction of peeling have been proposed. For example, Patent Document 3 proposes a pressure-sensitive adhesive product using a partially oriented and crystallized elastomer. Patent Document 4 discloses an anisotropic peelable pressure-sensitive adhesive tape in which anisotropic rigid particles and / or fibers are oriented and dispersed in at least one of a base material and / or a pressure-sensitive adhesive layer. These proposals do not require a facility or a device for utilizing the light exfoliation function, and are excellent in workability. However, since the pressure-sensitive adhesive material is limited to a specific substance, there is a problem that the range of properties of the pressure-sensitive adhesive is limited.

In addition, Patent Document 5 proposes an anisotropic viscous molded article using a support having anisotropic flexibility. By using a support having anisotropic flexibility, the pressure sensitive adhesive itself is not limited to a specific substance. Therefore, there is an advantage in that the range of properties of the pressure sensitive adhesive is not limited, but the structure of the support is limited.

Japan Post Utility Model Bulletin 50-013878 Japanese Patent Application Laid-Open No. 60-196956 Japanese Patent Application Laid-Open No. 2000-502379 Japanese Patent Application Laid-Open No. 2004-189847 Japanese Patent Application Laid-Open No. 7-018227

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances and provides a pressure-sensitive adhesive sheet which is firmly adhered to an adherend and can be easily peeled off from adherend when it is unnecessary or the adhesion is modified.

More specifically, it is an object of the present invention to provide an anisotropic, pressure-sensitive adhesive sheet which exhibits different peelability depending on the peeling direction, can firmly adhere to a specific direction and exhibits excellent peelability in a direction other than a specific direction It is a task.

As a result of intensive studies to solve this problem, it was found that the adhesive strength of the pressure-sensitive adhesive sheet was changed by forming a resin layer between the substrate and the pressure-sensitive adhesive layer and forming a concavo-convex structure on the surface of the resin layer in contact with the pressure- . It has also been found that a pressure-sensitive adhesive sheet having a different peeling force (adhesive force) is produced depending on the peeling direction by imparting anisotropy to the pattern of the concavo-convex structure on the surface of the resin layer, thereby completing the present invention.

In order to solve the above problems, the present invention provides a pressure-sensitive adhesive sheet comprising a pressure-sensitive adhesive layer in which a resin layer having a concavo-convex structure on at least one side of a substrate and a pressure-sensitive adhesive layer for covering the concave-convex structure of the resin layer are laminated in order, Wherein the pattern shape of the concavo-convex structure is anisotropic, and the surface of the pressure-sensitive adhesive layer has an arithmetic mean surface roughness (Ra) of 5 占 퐉 or less and a smoothness.

The present invention also provides an anisotropic, pressure-sensitive adhesive sheet characterized in that the ratio (K) of the thickness (T1) of the thinnest portion of the thickness of the pressure-sensitive adhesive layer to the thickness (T2) of the thickest portion is K = T1 / T2 = 0.2 to 0.8 do.

The ratio R of the adhesive force? 1 in the direction along the convex shape of the resin layer and the adhesive force? 2 in the direction orthogonal to the convex shape of the resin layer when the adherend is a glass plate is R =? 1 / and? 2 = 0.1 to 0.5.

The anisotropic, pressure-sensitive adhesive sheet of the present invention exhibits different peelability depending on the peeling direction, and can firmly bond to a specific direction and exhibit excellent peelability in directions other than the specific direction. Thereby, it is possible to provide an anisotropic adhesive sheet which is firmly adhered to an adherend, and which can be easily peeled off from an adherend when it is unnecessary or the adhesion is corrected. Further, since the anisotropic adhesive sheet of the present invention is not limited by the kind of the material of the base material and the pressure-sensitive adhesive, it can be used for various purposes.

1 (a) and 1 (b) are schematic sectional views showing an example of the anisotropic adhesive sheet of the present invention.
2 (a) to 2 (c) are schematic perspective views showing an example of a state before the pressure-sensitive adhesive layer of the anisotropic, viscous sheet of the present invention is laminated.
3 (a) and 3 (b) are schematic sectional views showing an example of a product using the anisotropic adhesive sheet of the present invention, respectively.

Hereinafter, the present invention will be described in detail based on embodiments.

1 is a schematic sectional view showing the concept of the anisotropic adhesive sheet of the present invention. In this anisotropic viscous sheet 10, a resin layer 2 is formed on the other surface of the base material 1. The pressure-sensitive adhesive layer 3 is formed on the surface of the resin layer 2. The resin layer 2 has a concavo-convex structure on the surface of the pressure-sensitive adhesive layer 3 side. 1A, the lower portion 2a of the resin layer 2 is continuously formed on the surface of the substrate 1, and only the upper portion 2b of the resin layer 2 has a concavo-convex structure. 1 (b), the resin layer 2 is discontinuously formed on the surface of the substrate 1, and at the point where the resin layer 2 is not formed, the pressure-sensitive adhesive layer 3 is formed on the surface of the substrate 1 It is possible to contact the surface.

The substrate 1 to be used for the anisotropic viscous sheet 10 according to the present invention is not particularly limited and may be any of paper, a resin film, a resin sheet, a metal-containing sheet, an inorganic-material-containing sheet, . Examples of the paper substrate include a top paper, a clay coat paper, an art coat paper, a resin coat paper, a gloss paper, and a polyethylene laminate paper. Examples of the substrate of the resin film include resin films such as polyethylene films, polypropylene films, polyester films, polyamide films, acrylic films, polycarbonate films, polyimide films, vinyl chloride films, vinylidene chloride films, and polystyrene films . Examples of the substrate of the resin sheet include a polyolefin sheet, a vinyl chloride sheet, a polyester sheet, and a polyamide sheet. Examples of the metal-containing sheet include metal foil such as aluminum foil, copper foil and stainless steel foil, a laminated sheet of a metal foil and a resin film, a metal vapor deposition sheet such as an aluminum vapor deposition sheet (which may be a vapor deposition film) . Examples of the inorganic (compound) -containing sheet include an alumina-deposited sheet and an inorganic vapor deposition sheet (also referred to as a vapor-deposited film) called silica-deposited sheet.

The material and thickness of the base material 1 are not particularly limited, but may be any material and thickness suited to the intended use. For this reason, in the present specification, the terms sheet and film are sometimes used without particular distinction of thickness, and one of the terms may include the meaning of the other.

The surface of the substrate 1 on the side of the resin layer 2 may be subjected to surface modification by a corona treatment or a plasma treatment or the like by a surface modification of the anchor coat 2, Or the like may be performed.

The surface of the base material 1 on the opposite side of the resin layer 2 may be subjected to surface treatment according to the application. For example, as an adhesive tape, a release agent such as silicone may be applied to form a releasing agent layer. As the application of the window film, a coating layer such as a hard coat agent, an antifouling agent, an infrared ray (heat ray) cutting agent or an ultraviolet ray cutting agent may be formed. In the applications such as labels, wallpaper, seals, baffles, stickers, etc., various printing layers, a water-repellent layer, a protective layer and the like may be used.

The resin layer (2) used in the anisotropic viscous sheet (10) according to the present invention is an important component for manifesting anisotropic adhesiveness. Fig. 2 shows an example of a state before the pressure-sensitive adhesive layer of the anisotropic adhesive sheet of the present invention is laminated. In Fig. 2 (a), the cross-sectional shape of the upper portion 2b of the resin layer 2 has a convex shape of approximately semicircular shape. In Fig. 2 (b), the cross-sectional shape of the upper portion 2b of the resin layer 2 has a substantially rectangular convex shape. In Fig. 2 (c), the cross-sectional shape of the upper portion 2b of the resin layer 2 has a substantially triangular convex shape. 2 shows the case where the lower portion 2a of the resin layer 2 is continuous as shown in Fig. 1 (a), but the resin layer 2 is discontinuous .

The anisotropic viscous sheet 10 according to the present invention is characterized in that the resin layer 2 has a concavo-convex structure on the surface of the pressure-sensitive adhesive layer 3 side, and the pattern of the concavo-convex structure is anisotropic Are different from each other in pattern shape).

The adhesive force of the anisotropic adhesive sheet according to the present invention can be considered as the sum of the adhesive force (1) at the interface between the pressure sensitive adhesive and the adherend and the stress (2) required to deform the pressure sensitive adhesive layer in the pressure sensitive adhesive layer. The present invention is based on the concept that the stress (2) required for deforming the pressure-sensitive adhesive layer is varied depending on the peeling direction, thereby exhibiting anisotropic adhesiveness. By forming the concavo-convex structure on the surface of the resin layer 2, the thickness of the pressure-sensitive adhesive layer 3 is changed to change the volume of the pressure-sensitive adhesive layer which is deformed by an external force when the anisotropic adhesive sheet 10 is peeled off, And the adhesive strength is different according to the direction. Therefore, it is necessary that the storage elastic modulus of the resin used for the resin layer (2) is larger than the storage elastic modulus of the pressure sensitive adhesive used for the pressure sensitive adhesive layer (3).

The resin used for the resin layer 2 is not particularly limited, and any resin that can form and maintain a concavo-convex structure can be used. Specific examples of the resin include acrylic resin, polyester resin, epoxy resin, olefin resin, polyamide resin, polyimide resin, polyvinyl alcohol resin, vinyl acetate resin, quality screen (nitrocellulose), alkyd resin, phenol resin, Silicone resin, and the like.

A known method may be used for forming the resin layer 2 on the base material 1 or a method of coating the base material 1 with a resin coating material or a method of melt- Extrusion laminating method), a method in which a resin sheet is prepared in advance and laminated with the substrate 1 using an adhesive (dry lamination method).

The anisotropic viscous sheet 10 according to the present invention is characterized in that the resin layer 2 has a concavo-convex structure on the surface of the pressure-sensitive adhesive layer 3 side, and the pattern of the concavo-convex structure is anisotropic Are different from each other in pattern shape). The pattern shape of the concavo-convex structure having anisotropy may be a pattern shape in which convex portions (or concave portions) are formed in a striped shape (vertical stripe shape or horizontal stripe shape) in the flow direction or width direction of the substrate 1 made of a long film. This is the most common. In addition, a pattern shape in which convex portions (or concave portions) are formed in a stripe pattern in the oblique direction with respect to the flow direction of the base material 1 made of a long film, or a pattern shape in which the concave pattern in the circumferential direction And pattern shapes arranged in succession.

As a method of forming the pattern of the concavo-convex structure having anisotropy in the resin layer 2, a known method may be used. For example, a method of transferring a pattern of a cooling roll by pressing a molten resin onto a base material 1 and pressing it with a cooling roll having a pattern formed thereon, a method of coating a resin coating material on a base material 1 by a gravure method , A method in which a thermoplastic resin or an ultraviolet ray hardening resin is uniformly coated on the base material 1, and a pattern cut shape is pressed to transfer the pattern shape to the resin surface.

The thickness of the resin layer 2 is not particularly limited and may be appropriately selected depending on the shape of the pattern, the depth of the concave portion of the pattern portion, the physical properties of the coating film of the pressure-sensitive adhesive, and the like. The thickness of the resin layer 2 is generally about 3 to 50 mu m. When the thickness is less than 3 mu m, the difference in the adhesive force due to the peeling direction is difficult to manifest. When the thickness exceeds 50 mu m, the cost is disadvantageously deteriorated and the processability of the resin layer 2 is reduced.

The surface of the resin layer 2 in contact with the pressure-sensitive adhesive layer 3 is subjected to adhesion treatment such as surface modification by corona treatment or plasma treatment or formation of an anchor coat layer in order to improve the anchoring power of the pressure-sensitive adhesive layer You can do it.

The pressure sensitive adhesive layer (3) used in the anisotropic viscous sheet (10) according to the present invention is adhered to the surface of an adherend and firmly adhered at the time of use, and it is required that it can be lightly peeled off after use or unnecessary, . In order to firmly adhere at the time of use, the surface of the pressure-sensitive adhesive layer 3 is preferably smooth. Specifically, it is preferable that the surface of the pressure-sensitive adhesive layer 3 has an arithmetic mean surface roughness Ra of 5 占 퐉 or less. When the arithmetic mean surface roughness Ra exceeds 5 占 퐉, there is a fear that the adhesion to the adherend becomes worse or bubbles are mixed when the anisotropic adhesive sheet 10 is adhered to the adherend.

The kind of the pressure-sensitive adhesive is not particularly limited, but a pressure-sensitive adhesive suitable for the use may be used such as an acrylic pressure-sensitive adhesive, a urethane pressure-sensitive adhesive, a rubber pressure-sensitive adhesive, and a silicone pressure-sensitive adhesive. Although the thickness of the pressure-sensitive adhesive layer 3 is not particularly limited, it is often about 5 to 100 占 퐉. If the thickness of the pressure-sensitive adhesive layer 3 is less than 5 占 퐉, it is difficult to fill the concavo-convex structure of the resin layer 2. If the thickness exceeds 100 占 퐉, there is no problem in terms of performance.

(Degree of anisotropy) of the resin layer 2 (the convexity of the resin layer 2), the thickness of the pressure-sensitive adhesive layer 3, and the shape of the pattern (concavity depth, Of the adhesive layer 2 in the direction orthogonal to the convex shape of the resin layer 2) changes. The design of the thickness of the resin layer 2, the thickness of the pressure-sensitive adhesive layer 3, and the pattern shape of the resin layer 2 becomes important in order to manifest anisotropic adhesiveness. The anisotropic, viscous adhesive sheet 10 is preferably formed in such a manner that the thickness of the pressure-sensitive adhesive layer 3 in the thick part of the resin layer 2 is equal to the thickness of the part where the resin layer 2 is absent, (2) becomes thinner than the thin portion. The thick and thin portions of the pressure-sensitive adhesive layer 3 are mixed to exhibit anisotropic adhesiveness. The ratio K of the thickness T1 of the thinnest portion and the thickness T2 of the thickest portion of the thickness of the pressure-sensitive adhesive layer 3 is preferably K = T1 / T2 = 0.2 to 0.8. When K is less than 0.2 or more than 0.8, anisotropic tackiness is difficult to manifest.

The pressure-sensitive adhesive may be a one-component type pressure-sensitive adhesive consisting solely of a subject, or a two-liquid type pressure-sensitive adhesive made by blending a subject and a curing agent. If necessary, an adhesion improver such as a silane coupling agent, a tackifier (tackifier) for improving the adhesion property, an antioxidant or an ultraviolet absorber for improving durability, an antistatic agent for imparting an antistatic effect, and a curing reaction And a pigment or a filler for imparting coloring or light shielding property to the pressure-sensitive adhesive sheet may be added.

Examples of the curing agent to be added to the pressure-sensitive adhesive layer (3) include an isocyanate compound, an epoxy compound, a melamine compound and a metal chelate compound. Examples of the tackifier include rosin, coumarone-indene, terpene, petroleum, phenol, and the like.

As a method for forming the pressure-sensitive adhesive layer 3, a known method may be used. Concretely, a sheet laminated with the substrate 1 and the resin layer 2 is coated with a known coating method such as reverse coating, comma coating, gravure coating, slot die coating, Meyer bar coating or air knife coating The pressure-sensitive adhesive may be applied, and then dried and cured. Depending on the type of the pressure-sensitive adhesive, radiation such as ultraviolet rays may be irradiated. Aging (curing) may be performed at a predetermined temperature to promote curing of the pressure-sensitive adhesive.

The anisotropic viscous sheet of the present invention is characterized in that its adhesive strength is different depending on the direction of peeling. The ratio R of the adhesive force? 1 in the direction along the convex shape of the resin layer 2 and the adhesive force? 2 in the direction orthogonal to the convex shape of the resin layer 2 when the adherend is a glass plate is It is preferable that R =? 1 /? 2 = 0.1 to 0.5. When R is more than 0.5 (in other words, when? 2 is less than 2 times? 1), it becomes difficult to achieve both adhesion to the adherend when using the pressure-sensitive adhesive sheet and unnecessary or peelability when modifying the adhesion. When R is less than 0.1, the degree of anisotropic tackiness is excessively large, so that it is difficult to obtain a satisfactory adhesion to the adherend, There is a possibility that the allowable angle in the direction becomes narrow.

A release film or a release paper is bonded to the surface of the pressure-sensitive adhesive layer 3 for the purpose of protecting the pressure-sensitive adhesive layer 3 or a release agent such as silicone is applied to the surface of the base material 1 opposite to the resin layer 2, (Tape) is generally wound. Fig. 3 is a schematic cross-sectional view of a product example in which a release film (release paper) is stuck and a product example in a roll (tape) wound shape. 3 (a) shows a peeling sheet 20 in which a releasing agent layer 4 is formed on one side of a support 5 so as to cover the surface of the pressure-sensitive adhesive layer 3 with the peeling agent layer 4, ). 3 (b) shows a case where the release agent layer 4 is formed on the surface of the substrate 1 opposite to the resin layer 2 and the roll is wound, the surface of the release agent layer 4 is peeled off from the surface of the release agent layer 4 . The terms "pressure-sensitive adhesive sheet", "pressure-sensitive adhesive tape" and "pressure-sensitive adhesive film" are sometimes differentiated depending on the presence or absence of rolls, thickness, width, etc. In the present specification, And includes forms such as an adhesive tape and an adhesive film.

It is preferable to apply the pressure sensitive adhesive directly to the sheet on which the base material 1 and the resin layer 2 are laminated since the concave portion of the concave and convex structure of the resin layer 2 needs to be filled with the pressure sensitive adhesive layer 3, Depending on the concavo-convex structure of the paper layer 2 and the viscosity (degree of polymerization) of the pressure-sensitive adhesive, after the pressure-sensitive adhesive is applied to the release film or the release paper, the pressure difference between the base layer 1 and the resin layer 2 It may be joined to the surface. In the case of a tape-like product, an adhesive is applied to the surface of the base material 1 side of the sheet laminated with the base material 1 and the resin layer 2 subjected to release treatment on the surface of the base material 1, You can. It is also possible to form a resin layer 2 having a concave-convex section and a pressure-sensitive adhesive layer 3 filling the concavo-convex structure of the resin layer 2 on both sides of the substrate 1. [

Example

The present invention is further illustrated by the following examples.

(Example 1)

On this adhesive-treated side of a polyester film (ester A-1597, manufactured by Toyobo Co., Ltd.) subjected to the adhesion treatment on one side having a thickness of 50 탆, an ultraviolet hardening type hard coat coating agent (Seika manufactured by Dainichi Seika Kogyo Co., Beam (registered trademark) PET HC-301) was applied to Meyer bar so as to have a thickness of 8 탆 after drying, and dried in a hot air circulating oven at 100 캜 for one minute to remove the solvent. Thereafter, a uniform stripe pattern (vertical stripe pattern) was formed in the coating flow direction by rubbing a brush (hair brush having a comb length of 1 mm and an interval of 0.7 mm) on the coated surface of the hard coat coating agent, Metal halide lamp) using an ultraviolet ray at a total light quantity of 1500 mJ / cm < 2 > to cure the hard coat coating agent. To 100 parts by weight of an acrylic pressure-sensitive adhesive (AS-409) manufactured by Ipoh Co., Ltd., an isocyanate curing agent (Coronate (registered trademark)) manufactured by Nippon Polyurethane Industry Co., Ltd. was added to the hard coat coating layer on which the obtained groove pattern was formed. HL) (3 parts by weight) was applied by an applicator so that the thickness after drying (thickness from the surface of the polyester film to the surface of the pressure-sensitive adhesive layer) became 20 탆 and dried in a hot-air circulating oven at 100 캜 for 2 minutes, The solvent in the pressure-sensitive adhesive was removed. Thereafter, on the surface of the pressure-sensitive adhesive layer, a separator (DIAFOLY MRF-25 manufactured by Mitsubishi Resin Co., Ltd.) treated with a silicone-based releasing agent was laminated on a PET film base material having a thickness of 25 mu m to prepare an anisotropic adhesive sheet. The obtained anisotropic viscous sheet was kept in a hot-air circulating oven at 50 캜 for 5 days to perform aging to cure the pressure-sensitive adhesive, thereby producing the anisotropic viscous sheet of Example 1.

(Example 2)

1 part by weight of an isocyanate curing agent (Coronate (registered trademark) HL) manufactured by Nippon Polyurethane Industry Co., Ltd. was added to 100 parts by weight of an acrylic pressure-sensitive adhesive (AS-409) manufactured by UPC Industries, The anisotropic viscous sheet of Example 2 was prepared in the same manner as in Example 1 except that the thickness of the pressure-sensitive adhesive layer was changed to 16 占 퐉.

(Example 3)

(Horizontal stripe pattern) was formed on the coated surface of the hard coat coating agent by rubbing the brush (hair brush) at right angles to the coating flow, the same procedure as in Example 1 was carried out, An anisotropic adhesive sheet was produced.

(Example 4)

The anisotropic viscous sheet of Example 4 was produced in the same manner as in Example 1 except that the thickness of the pressure-sensitive adhesive layer was 12 占 퐉.

(Comparative Example 1)

A pressure-sensitive adhesive sheet of Comparative Example 1 was produced in the same manner as in Example 1 except that the hard coat coating layer was not formed.

(Comparative Example 2)

Same as Example 1 except that a stripe-shaped uniform groove (lattice pattern) was formed on the coated surface of the hard coat coating agent by rubbing the brush (hair brush) in the coating flow direction and in the direction perpendicular to the coating flow To prepare a pressure-sensitive adhesive sheet of Comparative Example 2.

(Comparative Example 3)

A pressure-sensitive adhesive sheet of Comparative Example 3 was produced in the same manner as in Example 1 except that the thickness of the pressure-sensitive adhesive layer was 9 占 퐉.

Hereinafter, the evaluation test method and results are shown.

≪ Method for Measuring Adhesive Force of Anisotropic Sticky Sheet and Adhesive Sheet >

Samples (25 mm wide and 150 mm long) in the parallel direction (vertical direction) and the vertical direction (horizontal direction) are collected from the anisotropic adhesive sheet or pressure sensitive adhesive sheet in the coating flow direction. The separator of the sample is peeled off, and the glass plate is attached using a 2-kg rubber roller. The sample was allowed to stand for 1 hour in a test environment of 23 DEG C x 50% RH, and then the sample was peeled off in a direction of 180 DEG at a peeling rate of 300 mm / min using a tensile tester. 25 mm).

≪ Method of measuring surface roughness (arithmetic average surface roughness (Ra)) of pressure-

The separator of the sample was peeled off and the surface roughness (arithmetic average surface roughness (Ra)) of the surface of the pressure-sensitive adhesive layer was measured in a noncontact manner with a laser microscope (LEXT OLS4000, manufactured by Olympus Corporation) Was determined as the surface roughness of the sample.

Table 1 and Table 2 show the measurement results of the obtained anisotropic adhesive sheets of Examples 1 to 4 and the pressure-sensitive adhesive sheets of Comparative Examples 1 to 3, respectively. The "pattern layer" in Tables 1 and 2 is a resin layer formed by a hard coat coating agent.

In Comparative Examples 1 and 2, since there is no anisotropy of the resin pattern, R was made to have an adhesive force (length) / adhesive force (width) for convenience.

From the measurement results shown in Tables 1 and 2, the following can be found.

The anisotropic adhesive sheets of Examples 1 to 4 according to the present invention exhibit different adhesive forces (peelability) depending on the direction in which the longitudinal and transverse directions are peeled off. On the other hand, the pressure-sensitive adhesive sheet of Comparative Example 1 in which the resin layer was not formed and the pressure-sensitive adhesive sheet of Comparative Example 2 in which the lattice pattern was formed in the resin layer was not affected by the peeling direction in the longitudinal and transverse directions, . The pressure-sensitive adhesive sheet of Comparative Example 3 in which the surface of the pressure-sensitive adhesive layer was not smooth (further, the ratio (K) of the thickness (T1) of the thinnest portion to the thickness (T2) The sheet was not affected by the peeling direction of the longitudinal and transverse directions, and both were almost equal in peel strength (peelability).

An object of the present invention is to provide an anisotropic adhesive sheet which is firmly adhered to an adherend during use and can be easily peeled off from an adherend when the adherend is unnecessary or when the adhesion is corrected.

The anisotropic viscous sheet according to the present invention is not restricted by the material of the base material or the pressure-sensitive adhesive, and has different peelability depending on the direction of peeling. For this reason, for example, there are various kinds of labels such as wallpaper, window film (window film), marking sheet, label, baffle, adhesive tape, receiver label, delivery guide, protective film for optical film or display, It can be used for various purposes.

One… Equipment, 2 ... Resin layer, 2a ... The bottom of the resin layer, 2b ... Top of the resin layer, 3 ... Adhesive layer, 4 ... The release agent layer, 5 ... The support of the release sheet, 10 ... Anisotropic adhesive sheet, 20 ... Peeling sheet.

Claims (2)

A pressure-sensitive adhesive sheet comprising a long base material and a resin layer formed on at least one surface of the base material and having a concavo-convex structure, the resin layer having the convexo-concave structure being filled with a pressure-
The pattern shape of the concavo-convex structure of the resin layer having the concavo-
(a) having a concave portion having a stripe-shaped convexity in a longitudinal direction or a widthwise direction of the substrate and having a flat stripe-like concave portion, or
(b) a concave portion having a stripe-like concave portion and a stripe-like concave portion in a stripe shape with respect to the longitudinal direction of the base material,
Wherein the thickness (T2) of the thickest portion of the pressure sensitive adhesive layer is 5 to 100 占 퐉 and the ratio (K) of the thickness (T1) of the thinnest portion of the thickness of the pressure sensitive adhesive layer to the thickness (T2) = T1 / T2 = 0.2 to 0.8,
Wherein the pressure-sensitive adhesive sheet is different in adhesive force according to a direction in which the pressure-sensitive adhesive sheet is peeled from the adherend after the pressure-sensitive adhesive sheet is bonded to the adherend. The method according to claim 1,
(R) of an adhesive force (? 1) in the longitudinal direction of the convex shape of the resin layer and a sticking force (? 2) in the transverse direction of the convex shape of the resin layer when the adherend is a glass plate is R =? 1 /? 2 = 0.1 Lt; RTI ID = 0.0 >%< / RTI >

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